/*******************************************************************************
 * Copyright (c) 2008, 2025 SWTChart project.
 *
 * This program and the accompanying materials are made
 * available under the terms of the Eclipse Public License 2.0
 * which is available at https://www.eclipse.org/legal/epl-2.0/
 *
 * SPDX-License-Identifier: EPL-2.0
 * 
 * Contributors:
 * yoshitaka - initial API and implementation
 * Philip Wenig - fixed NPE
 *******************************************************************************/
package org.eclipse.swtchart.internal.compress;

import java.util.ArrayList;

/**
 * A base class for compressor providing default implementations.
 */
public abstract class Compress implements ICompress {

	/** the previous X grid index */
	protected int previousXGridIndex;
	/** the previous Y grid index */
	protected int previousYGridIndex;
	/** the configuration for compressor */
	protected CompressConfig config;
	/** the previous configuration for compressor */
	protected CompressConfig prevConfig;
	/** the flag indicating whether the data is compressed */
	protected boolean compressed;
	/** the source X series to be compressed */
	protected double[] xSeries = null;
	/** the source Y series to be compressed */
	protected double[] ySeries = null;
	/** the compressed X series */
	protected transient double[] compressedXSeries = null;
	/** the compressed Y series */
	protected transient double[] compressedYSeries = null;
	/** the compressed series indexes */
	protected transient int[] compressedIndexes = null;
	/** the lower value of x range */
	protected double xLower;
	/** the upper value of x range */
	protected double xUpper;
	/** the lower value of y range */
	protected double yLower;
	/** the upper value of y range */
	protected double yUpper;
	/** the state indicating if x axis is log scale */
	private boolean isXLogScale;
	/** the state indicating if y axis is log scale */
	private boolean isYLogScale;
	/** the plot area width in pixels */
	private long widthInPixel;
	/** the plot area height in pixels */
	private long heightInPixel;

	@Override
	public void setXSeries(double[] xSeries) {

		if(xSeries == null) {
			return;
		}
		double[] copiedSeries = new double[xSeries.length];
		System.arraycopy(xSeries, 0, copiedSeries, 0, xSeries.length);
		this.xSeries = copiedSeries;
		compressedXSeries = copiedSeries;
		compressedIndexes = new int[xSeries.length];
		for(int i = 0; i < xSeries.length; i++) {
			compressedIndexes[i] = i;
		}
		compressed = false;
	}

	@Override
	public void setYSeries(double[] ySeries) {

		if(ySeries == null) {
			return;
		}
		double[] copiedSeries = new double[ySeries.length];
		System.arraycopy(ySeries, 0, copiedSeries, 0, ySeries.length);
		this.ySeries = copiedSeries;
		compressedYSeries = copiedSeries;
		compressed = false;
	}

	@Override
	public double[] getCompressedXSeries() {

		if(compressedXSeries == null) {
			return new double[0];
		}

		double[] copiedSeries = new double[compressedXSeries.length];
		System.arraycopy(compressedXSeries, 0, copiedSeries, 0, compressedXSeries.length);
		return copiedSeries;
	}

	@Override
	public double[] getCompressedYSeries() {

		if(compressedYSeries == null) {
			return new double[0];
		}

		double[] copiedSeries = new double[compressedYSeries.length];
		System.arraycopy(compressedYSeries, 0, copiedSeries, 0, compressedYSeries.length);
		return copiedSeries;
	}

	@Override
	public int[] getCompressedIndexes() {

		if(compressedIndexes == null) {
			return new int[0];
		}

		int[] copiedSeries = new int[compressedIndexes.length];
		System.arraycopy(compressedIndexes, 0, copiedSeries, 0, compressedIndexes.length);
		return copiedSeries;
	}

	@Override
	final public boolean compress(CompressConfig compressConfig) {

		if((compressConfig.equals(prevConfig) && compressed) || xSeries == null || ySeries == null) {
			return false;
		}
		// store the previous configuration
		prevConfig = new CompressConfig(compressConfig);
		this.config = compressConfig;
		// store into fields to improve performance
		xLower = config.getXLowerValue();
		xUpper = config.getXUpperValue();
		yLower = config.getYLowerValue();
		yUpper = config.getYUpperValue();
		isXLogScale = config.isXLogScale();
		isYLogScale = config.isYLogScale();
		widthInPixel = config.getWidthInPixel();
		heightInPixel = config.getHeightInPixel();
		previousXGridIndex = -1;
		previousYGridIndex = -1;
		ArrayList<Double> xList = new ArrayList<>();
		ArrayList<Double> yList = new ArrayList<>();
		ArrayList<Integer> indexList = new ArrayList<>();
		// add necessary plots to the array
		addNecessaryPlots(xList, yList, indexList);
		compressedXSeries = new double[xList.size()];
		compressedYSeries = new double[yList.size()];
		compressedIndexes = new int[indexList.size()];
		for(int i = 0; i < xList.size(); i++) {
			compressedXSeries[i] = xList.get(i);
			compressedYSeries[i] = yList.get(i);
			compressedIndexes[i] = indexList.get(i);
		}
		compressed = true;
		return true;
	}

	/**
	 * Adds the necessary plots.
	 * 
	 * @param xList
	 *            the array in which x coordinate for necessary plot is stored
	 * @param yList
	 *            the array in which y coordinate for necessary plot is stored
	 * @param indexList
	 *            the array in which series index for necessary plot is stored
	 */
	abstract protected void addNecessaryPlots(ArrayList<Double> xList, ArrayList<Double> yList, ArrayList<Integer> indexList);

	/**
	 * Adds the given coordinate to list.
	 * 
	 * @param xList
	 *            the list to store the X coordinate
	 * @param yList
	 *            the list to store the Y coordinate
	 * @param indexList
	 *            the list to store the series index
	 * @param x
	 *            the X coordinate
	 * @param y
	 *            the Y coordinate
	 * @param index
	 *            the series index
	 */
	protected void addToList(ArrayList<Double> xList, ArrayList<Double> yList, ArrayList<Integer> indexList, double x, double y, int index) {

		xList.add(x);
		yList.add(y);
		indexList.add(index);
	}

	/**
	 * Checks if the given coordinate is in the same grid as previous.
	 * 
	 * @param x
	 *            the X coordinate
	 * @param y
	 *            the Y coordinate
	 * @return true if the given coordinate is in the same grid as previous
	 */
	protected boolean isInSameGridAsPrevious(double x, double y) {

		int xGridIndex;
		int yGridIndex;
		// calculate the X grid index
		if(isXLogScale) {
			double lower = Math.log10(xLower);
			double upper = Math.log10(xUpper);
			xGridIndex = (int)((Math.log10(x) - lower) / (upper - lower) * widthInPixel);
		} else {
			xGridIndex = (int)((x - xLower) / (xUpper - xLower) * widthInPixel);
		}
		// calculate the Y grid index
		if(isYLogScale) {
			double lower = Math.log10(yLower);
			double upper = Math.log10(yUpper);
			yGridIndex = (int)((Math.log10(y) - lower) / (upper - lower) * heightInPixel);
		} else {
			yGridIndex = (int)((y - yLower) / (yUpper - yLower) * heightInPixel);
		}
		// check if the grid index is the same as previous
		boolean isInSameGridAsPrevious = (xGridIndex == previousXGridIndex && yGridIndex == previousYGridIndex);
		// store the previous grid index
		previousXGridIndex = xGridIndex;
		previousYGridIndex = yGridIndex;
		return isInSameGridAsPrevious;
	}
}
